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alexander mcfarlane vector analysis and quaternions

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MATHEMATICAL MONOGRAPHS. EDITBD BY MANSFIELD MERRIMAN and ROBERT S. WOODWARD. No. 8. VECTOR ANALYSIS QUATERNIONS. BY ALEXANDER MACFARLANE, Secretary of International Association for Promoting the Study of Quaternions. FOURTH EDITION. riRST THOUSAND. NEW YORK: JOHN WILEY & SONS. London: CHAPMAN & HALL, Limited. 1906. ÆTHERFORCE MATHEMATICAL MONOGRAPHS. EDITED BY Mansfield Merrlman and Robert S. Woodward. Octavo, Cloth, $i.oo each. No. 1. HISTORY OP MODERN MATHEMATICS. By David Eugene Smith. No. 2. SYNTHETIC PROJECTIVE QEOMETRY. By George Bruce Halsted. No. 3. DETERMINANTS. By Laenas GiFFORD Weld. No. 4. HYPERBOLIC FUNCTIONS. By James McMahon. No. 5. HARMONIC FUNCTIONS. By William E. Bybrlv. No. «. ORASSMANN'S SPACE ANALYSIS. By Edward W. Htde. No. 7. PROBABILITY AND THEORY OF ERRORS. By Robert S. Woodward. No. 8. VECTOR ANALYSIS AND QUATERNIONS. By Alexander Macfarlanr. No. 9. DIFFERENTIAL EQUATIONS. By William Woolsby Johnson. No. 10. THE SOLUTION OF EQUATIONS. By Mansfield Merriman. No. 11. FUNCTIONS OF A COMPLEX VARIABLE. By Thomas S. Fiske. PUBLISHED BY JOHN WILEY & SONS, NEW YORK. CHAPMAN & HALL, Limited, LONDON. ÆTHERFORCE CoPYRrCHT, 1896, BY MANSFIELD MERRIMAN and ROBERT S. WOODWARD UNDBR THE TITLE HIGHER MATHEMATICS. First Edition, September, 1896. Second Edition, January, 1898. Tbird Edition, Aug^ust* 1900. Fourth Edition, January, 1906. ROBRRT mtUMMOND, PRINTER, HEW YORK, ÆTHERFORCE EDITORS' PREFACE. The volume called Higher Mathematics, the first edition of which was published in 1896, contained eleven chapters by eleven authors, each chapter being independent of the others, but all supposing the reader to have at least a mathematical training equivalent to that given in classical and engineering colleges. The publication of that volume is now discontinued and the chapters are issued in separate form. In these reissues it will generally be found that the monographs are enlarged by additional articles or appendices which either amplify the former presentation or record recent advances. This plan of publication has been arranged in order to meet the demand of teachers and the convenience of classes, but it is also thought that it may prove advantageous to readers in special lines of mathematical literature. It is the intention of the publishers and editors to add other monographs to the series from time to time, if the call for the same seems to warrant it. Among the topics which are vmder consideration are those of elliptic functions, the theory of num- bers, the group theory, the calculus of variations, and non- Euclidean geometry; possibly also monographs on branches of astronomy, mechanics, and mathematical physics may be included. It is the hope of the editors that this form of publication may tend to promote mathematical study and research over a wider field than that which the former volimie has occupied. December, 1903. 1:: ÆTHERFORCE AUTHOR'S PREFACE. Since this Introduction to Vector Analysis and Quaternions was first published in 1896, the study of the subject has become much more general; and whereas some reviewers then regarded the analysis as a luxury, it is now recognized as a necessity for the exact student of physics or engineering. In America, Pro- fessor Hathaway has published a Primer of Quaternions (New York, 1896), and Dr. Wilson has amplified and extended Pro- fessor Gibbs' lectures on vector analysis into a text-book for the use of students of mathematics and physics (New York, 1901). In Great Britain, Professor Henrici and Mr. Turner have pub- lished a manual for students entitled Vectors and Rotors (London, 1903); Dr. Knott has prepared a new edition of Kelland and Tail's Introduction to Quaternions (London, 1904); and Pro- fessor Joly has realized Hamilton's idea of a Manual of Quater- nions (London, 1905). In Germany Dr. Bucherer has pub- lished Elemente der Vektoranalysis (Leipzig, 1903) which has now reached a second edition. Also the writings of the great masters have been rendered more accessible. A new edition of Hamilton's classic, the Ele- ments of Quaternions, has been prepared by Professor Joly (London, 1899, 1901); Tait's Scientific Papers have been re- printed in collected form (Cambridge, 1898, 1900); and a com- plete edition of Grassmann's mathematical and physical works has been edited by Friedrich Engel with the assistance of several of the eminent mathematicians of Germany (Leipzig, 1894-). In the same interval many papers, pamphlets, and discussions have appeared. For those who desire information on the litera- ture of the Subject a Bibliography has been published by the Association for the promotion of the study of Quaternions and Allied Mathematics (Dublin, 1904). There is still much variety in the matter of notation, and the relation of Vector Analysis to Quaternions is still the subject of discussion (see Journal of the Deutsche Mathematiker-Ver- einigung for 1904 and 1905). Chatham, Ontamo, Canada, December, 1905. ÆTHERFORCE CONTENTS. Akt. I. Introduction Page 7 2. Addition of Coplanar Vectors 8 3. Products of Coplanar Vectors 14 4. Coaxial Quaternions 21 5. Addition of Vectors in Space 25 6. Product of Two Vectors 26 7. Product of Three Vectors 31 8. Composition of Located Quantities 35 9. Spherical Trigonometry 39 10. Composition of Rotations 45 Index 49 ÆTHERFORCE ÆTHERFORCE VECTOR ANALYSIS AND QUATERNIONS. Art. 1. Introduction. By " Vector Analysis " is meant a space analysis in which the vector is the fundamental idea; by "Quaternions" is meant a space-analysis in which the quaternion is the fundamental idea. They are in truth complementary parts of one whole; and in this chapter they will be treated as such, and developed so as to harmonize with one another and with the Cartesian Analysis.* The subject to be treated is the analysis of quanti- ties in space, whether they are vector in nature, or quaternion in nature, or of a still different nature, or are of such a kind that they can be adequately represented by space quantities. Every proposition about quantities in space ought to re- main true when restricted to a plane ; just as propositions about quantities in a plane remain true when restricted to a straight line. Hence in the following articles the ascent to the algebra of space is made through the intermediate algebra of the plane. Arts. 2-4 treat of the more restricted analysis, while Arts. 5-10 treat of the general analysis. This space analysis is a universal Cartesian analysis, in the same manner as algebra is a universal arithmetic. By provid- ing an explicit notation for directed quantities, it enables their general properties to be investigated independently of any particular system of coordinates, whether rectangular, cylin- drical, or polar. It also has this advantage that it can express •For a discussion of the relation of Vector Analysis to Quaternions, see Nature, 1891-1893. ÆTHERFORCE 8 VECTOR ANALYSIS AND QUATERNIONS. the directed quantity by a linear function of the coordinates, instead of in a roundabout way by means of a quadratic func tion. The different views of this extension of analysis which have been held by independent writers are briefly indicated by the titles of their works : Argand, Essai sur une maniere de representer les quantit6s imaginaires dans les constructions geometriques, 1806. Warren, Treatise on the geometrical representation of the square roots of negative quantities, 1828. Moebius, Der barycentrische Calcul, 1827. Bellavitis, Calcolo delle Equipollenze, 1835. Grassmann, Die lineale Ausdehnungslehre, 1844. De Morgan, Trigonometry and Double Algebra, 1849. O'Brien, Symbolic Forms derived from the conception of the translation of a directed magnitude. Philosophical Transactions, 1851. Hamilton, Lectures on Quaternions, 1853, and Elements of Quaternions, 1866. Tait, Elementary Treatise on Quaternions, 1867. Hankel, Vorlesungen iiber die complexen Zahlen und ihre Functionen, 1867. Schlegel, System der Raumlehre, 1872. Hoiiel, Theorie des quantites complexes, 1874. Gibbs, Elements of Vector Analysis, 1881-4. Peano, Calcolo geometrico, 1888. Hyde, The Directional Calculus, 1890. Heaviside, Vector Analysis, in "Reprint of Electrical Papers," 1885-92. Macfarlane, Principles of the Algebra of Physics, 1891. Papers on Space Analysis, 189 1-3. An excellent synopsis is given by Hagen in the second volume of his " Synopsis der hoheren Mathematik." Art. 2. Addition of Coplanar Vectors. By a "vector" is meant a quantity which has magnitude and direction. It is graphically represented by a line whose ÆTHERFORCE ADDITION OF COPLANAR VECTORS. 9 length represents the magnitude on some convenient scale, and whose direction coincides with or represents the direction of the vector. Though a vector is represented by a line, its physical dimensions may be different from that of a line. Ex- amples are a linear velocity which is of one dimension in length, a directed area which is of two dimensions in length, an axis which is of no dimensions in length. A vector will be denoted by a capital italic letter, as B* its magnitude by a small italic letter, as b, and its direction by a small Greek letter, as /3. For example, B = bfi, R = rp. Sometimes it is necessary to introduce a dot or a mark / to separate the specification of the direction from the expression for the magnitude ; f but in such simple expressions as the above, the difference is sufficiently indicated by the difference of type. A system of three mutually rectangular axes will be indicated, as usual, by the letters i,j, k. The analysis of a vector here supposed is that into magni- tude and direction. According to Hamilton and Talt and other writers on Quaternions, the vector is analyzed into tensor and unit-vector, which means that the tensor is a mere ratio destitute of dimensions, while the unit-vector is the physical magnitude. But it will be found that the analysis into magni- tude and direction is much more in accord with physical ideas, and explains readily many things which are difficult to explain by the other analysis. A vector quantity may be such that its components have a common point of application and are applied simultaneously; or it may be such that its components are applied in succes- sion, each component starting from the end of its predecessor. An example of the former is found in two forces applied simul- taneously at the same point, and an example of the latter in • This notation is found convenient by electrical writers in order to harmo- nize with the Hospitaller system of symbols and abbreviations. f The dot was used for this purpose in the author's Note on Plane Algebra, 1883; Kennelly has since used /. for the same purpose in his electrical papers ÆTHERFORCE [...]... third side, while the vector part gives four times the area included between the path and the third side Square of a Trinomial of Coplanar Vectors C denote a sum of successive vectors — Let.^ -\-B-{- The product terms must be formed so as to preserve the order of the vectors in the trinomial that is, A is prior to B and C, and B is prior to C ; ÆTHE ORCE RF VECTOR ANALYSIS AND QUATERNIONS 20 Hence (^A.. .VECTOR ANALYSIS AND QUATERNIONS 10 two made rectilinear displacements one an- in succession to other Composition of Components having a Application — Let OA and OB common Point of represent two vectors of the same kind simultaneously applied at the point O Draw BC Q parallel to OA, and AC parallel to OB, and g join OC The diagonal OC represents in magnitude and direction and point of application... pair of components and there is ; having the given directions 'L.etf/6 be the vector and /^, and /d^ the given directions Then /, +/, cos /, cos («, from which it - - 6,) e,) =/cos {d +/, =/cos - {0, - e,), ff), follows that {cos {6 •^' (iv, - - 6,) ~-^ I cos {ff, — cos" - 0) - {fi, cos {ff, — 6>.) } ff,) ÆTHE ORCE RF VECTOR ANALYSIS AND QUATERNIONS 12 For example, 100/60°, /30°, and /go" be given let... homogeneous, and expresses nothing but the equivalence of a given quaternion to two component quaternions. * Hence r/S* = r cos ^ -|- r sin b ^'^ and rfi'A — pA = pa -{-^^"/"-A The -\-qa between relations a r and r 6, = -//+? ^ p'l^a and p and q, are given by = tan "< — Example Let E denote a sine alternating electromotive magnitude and phase, and / the alternating current in magitude and phase, then... »/4i" - any number of component vectors R^ represent the n applied at a common point, let i?,, /?„ To find the resultant of vectors or, ÆTHE ORCE RF VECTOR ANALYSIS AND QUATERNIONS 26 R, =x^i+yj + 2^k, Rn = ^J + yJ + ^«^ = r = :2R then and tan0 = ^ lie in lie in {^y);- (^^-^)'> ' i/(:S-;r)' and Successive Addition + {2z)k + C^^) + {2xy + ^ = tan —When the successive vectors do not one plane, the... k and i the projections of — a,b^i A and denotes in Corollary i.— Hence NBA = — VAB lines A = ^i — Example — Given two — 92+4/ — 6^; t° fi""^ loj -\- ik and B= the rectangular projections of the par- allelogram which they define ÆTHE ORCE RF 30 VECTOR ANALYSIS AND QUATERNIONS WAB = (60 — = 48/+ Corollary SAB = 2 — If I2>" IS/" A is + (- 27 + 42};'+ (28 - go)k — 62>fe expressed as aa and B as ^/8, and. .. which is nornial to both a and drawn in the sense given by the right-handed screw a^ cos ar/J = r^J/d_ and B = r'^/l&_ Example.— Given A S^^ = rr" cos B be let C de- and /8, Then ^/^07/^ = rr'Icos Product of two then a^ e cos Sums 6*' + sin 6' » sin cos (0' of non-successive Vectors — 0)} —Let A and two component vectors, giving the resultant A -\- B, and denote any other vector having the same point... versor are logically led to define the reciprocal of a vector as being opposite in direction as well as reciprocal in magnitude ÆTHE ORCE RF VECTOR ANALYSIS AND QUATERNIONS 18 = Hence S^"'^ b -cos aB and YA-'B "^ a Product of three Coplanar Vectors B= common {^AB)C C= bj, b^i -\- c^i -\- c^j denote b = -sin a — Let A a6 = afi ' + a,j, aj any three vectors in a Then plane A + aA) + (flA - a.K)k\{c,i +... f/B be the vector and fjo one component then the it ; •other component m = is ^/'+/.' - 3// e/u^ _fj:^/^^^ ^ cos Given the resultant and the directions of the two components, to find the magnitude of the components The resultant — is represented by Y, OC, and the From C draw OX and OY OY, and CB parallel to OX the lines OA and OB cut off represent the required components It is evident that OA and OB when... importance plane analysis it is means defined may solid trigonometrical analysis possible the most important key to the extension of analysis to space cally "quaternion " of two and the Thus other an angle of a quadrant 1>e be expressed as the operators, one of which has a zero angle by four elements; which is Etymologi- true in space in defined by two ÆTHE ORCE RF VECTOR ANALYSIS AND QUATERNIONS 22 . ÆTHERFORCE VECTOR ANALYSIS AND QUATERNIONS. Art. 1. Introduction. By " Vector Analysis " is meant a space analysis in which the vector is the fundamental idea; by " ;Quaternions& quot;. k. The analysis of a vector here supposed is that into magni- tude and direction. According to Hamilton and Talt and other writers on Quaternions, the vector is analyzed into tensor and unit -vector, which means. FUNCTIONS. By William E. Bybrlv. No. «. ORASSMANN'S SPACE ANALYSIS. By Edward W. Htde. No. 7. PROBABILITY AND THEORY OF ERRORS. By Robert S. Woodward. No. 8. VECTOR ANALYSIS AND QUATERNIONS. By Alexander Macfarlanr. No. 9. DIFFERENTIAL EQUATIONS. By William Woolsby Johnson. No.

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